If electric linces of force in a region are represented as shown in the figure, then one can conclude that, electric field is

A graph of the x-component of the electric field as a function of x in a region of space is shown in the figure. They y and z-components of the electric field are zero in this region. The electric potential at the origin is 10 V. The value of x for which potential is zero is

A graph of the x-component of the electric field as a function of x in a region of space is shown in the figure. They y and z-components of the electric field are zero in this region. The electric potential at the origin is 10 V. The greatest positive value of electric potential for points of the x-axis for which 0lexle6m is

Electric lines of force are as shown in the figure. Then potential at point P

A graph of the x-component of the electric field as a function of x in a region of space is shown in figure. The y- and z-components of the electric field are zero in this region. If the electric potential is 10 V at the origin, then the potential at x = 2.0 m is

Some electric lines of force are shown in figure. For points a and B

The flux of electric field through the circular region of radius r as shown in the figure is

The field lines corresponding to an electric filed is shown in the figure then ( E denotes electric field and V denotes electric potential)

what is the net force on a dipole in a uniform electric field ?

An electric dipole of dipole moment p = 6 * 10^-4 C m is placed in a uniform external electric field of intensity 2*10^5(N/C) as shown in the figure, The anglebetween net electric field with external electric field at point A will be (epsilon

In the uniform electric field shown in figure, find